RU2437822C2 - Method of adjusting floor connections of large amount of elevator service facilities - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: in adjustment of service facilities performed during elevator mounting, elevator cabin (30) is moved to predefined floor (11, 13, 15, 17) to activate service facility (50-57) of said floor (11, 13, 15, 17) and to transmit floor location data describing said floor (11, 13, 15, 17) whereon service facility (50-57) is located from transmitter (35) to service facility (50-57) and/or to central control device (40). Said data is memorised in service facility memory device (60) and/or in central control device (40). Elevator cabin (30) incorporates transmitter (35). Service facilities are distributed among large amount of floors (11, 13, 15, 17).

EFFECT: decreased time interval of adjustment.

17 cl, 1 dwg

Description

The present invention relates to a method for adjusting the floor connections of a large number of servicing devices of the elevator installation, and the servicing devices are distributed over a large number of floors, and the elevator car containing the transmitting device bypasses the floors.

During the installation and installation of the elevator in the building, the elevator car during the so-called “study trip” is fed to all breakpoints, that is, to all floors, to adjust the breakpoints at the height level of the corresponding floors. Further, service devices distributed on separate floors, for example, equipped with control panel call buttons, or their connections must be configured or configured with a central control device. In this case, it is necessary to determine the location of these, provided in the approach zone to the elevator installation of each floor, control panels and attach to the service device.

US 6672429 B1 describes a method for serial data exchange in an elevator system between a computer and input-output devices serving devices on floors and in an elevator car and a sampling device. The sampling device contains sensors with which the position of the elevator car is recorded (column 2, line 59; column 3, line 31). Each I / O device is identified by two bytes. The first byte indicates the function, the second byte indicates the identity (column 3, line 58; column 4, line 12). Both of these bytes are contained in data packets transmitted between the computer and I / O devices. Through the maintenance device used in serial communication, the identity and functions of the individual I / O devices can be requested (column 4, lines 21-41).

GB 1468061 describes a method for controlling multiple elevators in a building. For this purpose, a computer with a program is used.

EP 0248997 A1 describes a method for controlling a group of elevators inside a building. By means of a blocking circuit, a situation is ensured in which, in the event of the presence of several cabs at the main stop, only the doors of the elevator car which is intended for movement, the demand for which was received by the call registration device, always open.

In the traditional way, this configuration is done through several switches, which, respectively, are manually configured by the installer on each floor at each serving device. Thus, manual configurations are time consuming and labor-intensive. In addition, such switches are costly components. The service device usually consists of a stamp that contains a panel for making a voice call and an indicator. The voice call panel and indicator are partly two different stamps. In this case, the service device consists of two dies, both of which must be configured.

Therefore, the invention is based on the task of creating such a method for adjusting floor connections of a large number of service devices of an elevator installation, which would facilitate the adjustment of floor connections of service devices.

To solve this problem, with the method of setting up floor connections of a large number of servicing devices of the elevator installation, and the servicing devices are distributed over a large number of floors, and the elevator car containing the transmitting device goes around the floors, in agreement with paragraph 1 in accordance with the invention, it is provided that the method includes the following steps:

a) moving the elevator car to a predetermined floor;

b) activation of the service device assigned to the floor on which the elevator car arrived;

c) transmitting location data describing the floor on which the service device is located, from the transmitting device to the service device and / or to the central control device;

d) storing location data in a storage device of a service device and / or in a central control device.

By means of the method in accordance with the invention, it is possible to relatively easily and quickly configure floor connections of service devices. In this way, you can opt out of manually configuring the switches of each individual serving device. Further, due to this, possible errors are reduced when configuring the switches.

Under the "service device" in the sense of the proposed invention, we mean the panels provided in the access area of each floor to the elevator installation, with at least one user-controlled switch for the operation of the elevator installation. Preferably, this is about conventional call buttons.

Preferred embodiments of the method in accordance with the invention are described in paragraphs 2-7 of the claims.

In a preferred embodiment of the method, it is provided that the elevator car moves to the floor by means of automatic control via a central control device. So, a program can be made available that provides the passage of all floors in order to connect separate service devices. Alternatively, the elevator car can be moved on floors and by manual control of the corresponding call switch.

In another embodiment of the method in accordance with the invention, it is proposed that the serving device is activated by transmitting the activation signal from the transmitting device to the serving device. Alternatively, such an activation process may, however, also be carried out manually by controlling the servicing device.

In a preferred embodiment, the location data is further stored in a central control device. It may further be provided that, in addition to the location data, data that characterizes access to the elevator car is also transmitted. This applies to those elevator installations in which the elevator car has more than one door. Each cab door forms such access.

In order to easily configure floor connections of all servicing devices for all floors, the above steps a) to d) are repeated for all floors in the corresponding building. Similarly, the previously mentioned steps are repeated on each floor for each access to the elevator car.

The invention is further explained in more detail with reference to the drawing.

The drawing schematically represents a building 10 with an elevator installation 20. The elevator installation 20 comprises a vertically movable elevator car 30 with two doors 33, 34 and one control panel 32 with several call switches. A transmission device 35 is provided on the elevator car 30, which is in a state of information exchange with the central control device 40. The central control device 40 is designed to control the elevator installation 20.

Building 10 has ground floor 11, second floor 13, third floor 15 and fourth floor 17. On each of these floors 11, 13, 15, 17 there is, respectively, one left-side and one right-side access to the elevator installation 20, which, respectively, locked by the entry doors 12a, 12b, 14a, 14b, 16a, 16b, 18a, 18b. Through these accesses from both sides you can enter the elevator installation 30 and leave it. In the area of each access is a service device 50-57, through which the user can call the elevator installation 30 and / or can transfer the call. Each serving device 50-57 comprises a storage device 60 and several call buttons. Further, each serving device 50-57 is in a state of information exchange with the central control device 40.

Based on this system, two variants of the method for setting up floor connections of service devices 50-57 are further explained.

In the first embodiment of the method in accordance with the invention, the central control device 40 is, first of all, transferred to the setting mode. First of all, the elevator car 30 moves to the fourth floor 17 and the door of the car 34 opens. One worker from the installation team enters the elevator car 30 and drives one of the call buttons of the control panel 32, so that the elevator car 30 moves to the third floor. After the elevator car 30 has reached the third floor 15, the car door 34 and the front door 16b are opened. The installer leaves the elevator car 30 and activates the button of the service device 54 to activate this device. After establishing a radio information connection between the transmitting device 35 and the serving device 54, the transmitting device 35 transmits the location data to the serving device 54 and / or to the central control device 40. The location data is stored in the transmitting device 35 and / or in the central control device 40, or transmitted by devices 35, 40. The location data transmitted to the service device 54 contains information about the floor number of the building 10 and the entrance designation and, accordingly, front door 16a. The location data is preferably stored in the storage device 60 of the service device 54. Thus, with the further operation of the elevator installation 20, when transferring a call through the service device 54 to the central control device 40, it is possible to find out on which floor and in which access zone is the person in the process transportation.

The installer then enters the elevator car 30 and activates the corresponding button of the control panel 32 to close the elevator car 34. Next, the installer activates another button of the control panel 32 to open the left door 33 of the cab and the front door 16a. After leaving the elevator car 30 in the left-hand area of floor 15, the installer activates the service device 55 to activate this device. After establishing an information connection between the transmitting device 35 and the serving device 55, the transmitting device 35, in accordance with the aforementioned principle, transmits location data to the serving device 55. The location data is stored in the storage device 60 of the serving device 55 and / or in the central control device 40.

At the next entry into the elevator car 30, the installer actuates the control panel 32 in order to move the elevator car 30 to the second floor 13. With respect to this floor 13, as well as all other floors, respectively, the above steps of the method are carried out, so that at the end of the setting in this way, each service device 50-57 is associated with the corresponding floor 11, 13, 15, 17. Thus, the central control device 40 during the further normal operation of the elevator installation 20 can uniquely determine from which service device 50-57 the corresponding call was transferred.

The second variant of the method in accordance with the invention differs from the first variant, mainly in that the adjustment according to the method is largely automatic. Thus, it is not necessary that the worker of the installation team during the “installation trip” actuate the separate servicing devices 50-57 and the control panel 32 of the elevator car 30 to transmit location data and to move the elevator car 30 between separate floors 11, 13, 15, 17.

In this second embodiment, the transmitting device 35 comprises a transmitting part of the radio frequency identification, which at a predetermined time interval sends an activation signal within a predetermined range. In the case proposed for consideration, the radius of action is approximately 1-2 m. Further, without exception, all serving devices 50-57, respectively, contain the receiving part of the radio frequency identification.

The radio frequency identification chip can be made in the form of a stamp on the indicator / service device, since the radio frequency identification chip costs only two Swiss centimes, and the receiving device, however, is much more expensive. The identification sent from the RFID chip must be consistent with the stamp address. This allows, after detecting the RFID chip, to purposefully, through the field bus, activate and configure the indicator / servicing device.

A slightly more expensive transmitter is mounted on the cab and can, if necessary, be removed again after a “study trip”.

So at the first stage, the elevator car 30, departing from the top floor 17, automatically moves to the third floor 15, and the corresponding cabin door 34 and the front door 16b automatically open. As soon as the transmitting device 35 is within the predetermined range of the serving device 54, the serving device 54 receives an activation signal sent from the transmitting part of the radio frequency identification, as a result of which the serving device 54 is activated. Next, the serving device 54 transmits a confirmation signal to the transmitting device 35. In the next step, the transmitting device 35, as in the first embodiment, transmits location data to the serving device 54 and / or to the central control device 40. The location data is again stored in the storage device 60 devices 54 and / or in the central control device 40. Then the front door 16b and the cabin door 34 are automatically closed and the front door 16a and the door 33 facing the other side of the floor 15 ENCLOSURE open automatically. The activation signal sent from the transmitting part of the radio frequency identification of the transmitting device 35 is received by the receiving part of the radio frequency identification of the serving device 55. After that, the confirmation signal is transmitted again to the transmitting device 35 and the location data is transmitted to the serving device 55 and / or to the central control device 40. Location data is stored in the storage device 60 of the service device 55 and / or in the central control unit 40. Then the input The first door 16a and the door 33 of the cabin are automatically closed, and the elevator car 30 is moved to the floor 13.

Then all the prescribed steps of the method are repeated on all floors 11, 13, 15, 17 for left and right access. Thus, by means of a fully automated method of tuning, without exception, all serving devices 50-57 on all floors 11, 13, 15, 17 can be provided with relevant data for setting up floor connections.

Both of the above-described variants of the method in accordance with the invention are distinguished, in particular, in that no manual control of the commonly available switches of the serving devices 50-57 is required to configure the floor connections of the service devices 50-57. By means of the method according to the invention, this setting can be carried out using preferably wireless data transmission by means of a radio frequency identification technique. In this case, the second embodiment of the method differs, in particular, in that the receiving parts of the radio frequency identification are only temporarily applied to the service devices 50-57 and after setting, according to the method, can be removed and, for example, used to configure the next elevator installation in another building. The installer should, if necessary, again after the “training trip” manually perform some actions to remove the transmitters from the indicators / servicing devices.

Claims (17)

1. The method, during installation and installation of the elevator, adjustment of floor connections of a large number of servicing devices (50-57) of the elevator installation (20), and servicing devices (50-57) are distributed on a large number of floors (11, 13, 15, 17) and the elevator car (30) goes around the floors (11, 13, 15, 17), the elevator car (30) contains a transmitting device (35) and the method includes the following steps:
a) moving the elevator car (30) to a predetermined floor (11, 13, 15, 17);
b) activation of the service device (50-57) assigned to the floor (11, 13, 15, 17), on which the elevator car arrived;
c) transmitting location data describing the floor (11, 13, 15, 17) on which the service device (50-57) is located, from the transmitting device (35) to the service device (50-57) and / or to the central control device (40);
d) storing location data in a storage device (60) of a service device (50-57) and / or in a central control device (40). 2. The method according to claim 1, characterized in that the elevator car (30) is automatically moved through the central control device (40) to the floor (11, 13, 15, 17). 3. The method according to one of claims 1 or 2, characterized in that the serving device (50-57) is activated by transmitting the activation signal from the transmitting device (35) to the serving device (50-57). 4. The method according to one of claims 1 or 2, characterized in that the location data is stored in a storage device (60) of a service device (50-57) and in a central control device (40). 5. The method according to claim 3, characterized in that the location data is stored in a storage device (60) of the service device (50-57) and in a central control device (40). 6. The method according to one of claims 1, 2, 5, characterized in that they also additionally transmit data characterizing access to the elevator car (30) on the floor (11, 13, 15, 17). 7. The method according to claim 3, characterized in that they also additionally transmit data characterizing access to the elevator car (30) on the floor (11, 13, 15, 17). 8. The method according to claim 4, characterized in that they also additionally transmit data characterizing access to the elevator car (30) on the floor (11, 13, 15, 17). 9. The method according to one of claims 1, 2, 5, 7, 8, characterized in that steps a) to d) are repeated for all floors (11, 13, 15, 17). 10. The method according to claim 3, characterized in that steps a) to d) are repeated for all floors (11, 13, 15, 17). 11. The method according to claim 4, characterized in that steps a) to d) are repeated for all floors (11, 13, 15, 17). 12. The method according to claim 6, characterized in that steps a) to d) are repeated for all floors (11, 13, 15, 17). 13. The method according to one of claims 1, 2, 5, 7, 8, 10-12, characterized in that steps a) to d) on each floor (11, 13, 15, 17) are repeated for each access to the elevator car (30). 14. The method according to claim 3, characterized in that steps a) to d) on each floor (11, 13, 15, 17) are repeated for each access to the elevator car (30). 15. The method according to claim 4, characterized in that steps a) to d) on each floor (11, 13, 15, 17) are repeated for each access to the elevator car (30). 16. The method according to claim 6, characterized in that steps a) to d) on each floor (11, 13, 15, 17) are repeated for each access to the elevator car (30). 17. The method according to claim 9, characterized in that steps a) to d) on each floor (11, 13, 15, 17) are repeated for each access to the elevator car (30).